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F1l3 Manager

Current Directory: /opt/saltstack/salt/lib/python3.10/site-packages/salt/utils
/opt/saltstack/salt/lib/python3.10/site-packages/salt/utils/
Viewing File: /opt/saltstack/salt/lib/python3.10/site-packages/salt/utils/aws.py
""" Connection library for AWS .. versionadded:: 2015.5.0 This is a base library used by a number of AWS services. :depends: requests """ import binascii import copy import hashlib import hmac import logging import random import re import time import urllib.parse import xml.etree.ElementTree as ET from datetime import datetime import requests import salt.config import salt.utils.hashutils import salt.utils.xmlutil as xml log = logging.getLogger(__name__) DEFAULT_LOCATION = "us-east-1" DEFAULT_AWS_API_VERSION = "2016-11-15" AWS_RETRY_CODES = [ "RequestLimitExceeded", "InsufficientInstanceCapacity", "InternalError", "Unavailable", "InsufficientAddressCapacity", "InsufficientReservedInstanceCapacity", ] AWS_METADATA_TIMEOUT = 3.05 AWS_MAX_RETRIES = 7 IROLE_CODE = "use-instance-role-credentials" __AccessKeyId__ = "" __SecretAccessKey__ = "" __Token__ = "" __Expiration__ = "" __Location__ = "" __AssumeCache__ = {} __IMDS_Token__ = None def sleep_exponential_backoff(attempts): """ backoff an exponential amount of time to throttle requests during "API Rate Exceeded" failures as suggested by the AWS documentation here: https://docs.aws.amazon.com/AWSEC2/latest/APIReference/query-api-troubleshooting.html and also here: https://docs.aws.amazon.com/general/latest/gr/api-retries.html Failure to implement this approach results in a failure rate of >30% when using salt-cloud with "--parallel" when creating 50 or more instances with a fixed delay of 2 seconds. A failure rate of >10% is observed when using the salt-api with an asynchronous client specified (runner_async). """ time.sleep(random.uniform(1, 2**attempts)) def get_metadata(path, refresh_token_if_needed=True): """ Get the instance metadata at the provided path The path argument will be prepended by http://169.254.169.254/latest/ If using IMDSv2 with tokens required, the token will be fetched and used for subsequent requests (unless refresh_token_if_needed is False, in which case this will fail if tokens are required and no token was already cached) """ global __IMDS_Token__ headers = {} if __IMDS_Token__ is not None: headers["X-aws-ec2-metadata-token"] = __IMDS_Token__ # Connections to instance meta-data must fail fast and never be proxied result = requests.get( f"http://169.254.169.254/latest/{path}", proxies={"http": ""}, headers=headers, timeout=AWS_METADATA_TIMEOUT, ) if result.status_code == 401 and refresh_token_if_needed: # Probably using IMDSv2 with tokens required, so fetch token and retry token_result = requests.put( "http://169.254.169.254/latest/api/token", headers={"X-aws-ec2-metadata-token-ttl-seconds": "21600"}, proxies={"http": ""}, timeout=AWS_METADATA_TIMEOUT, ) __IMDS_Token__ = token_result.text if token_result.ok: return get_metadata(path, False) result.raise_for_status() return result def creds(provider): """ Return the credentials for AWS signing. This could be just the id and key specified in the provider configuration, or if the id or key is set to the literal string 'use-instance-role-credentials' creds will pull the instance role credentials from the meta data, cache them, and provide them instead. """ # Declare globals global __AccessKeyId__, __SecretAccessKey__, __Token__, __Expiration__ ret_credentials = () # if id or key is 'use-instance-role-credentials', pull them from meta-data ## if needed if provider["id"] == IROLE_CODE or provider["key"] == IROLE_CODE: # Check to see if we have cache credentials that are still good if not __Expiration__ or __Expiration__ < datetime.utcnow().strftime( "%Y-%m-%dT%H:%M:%SZ" ): # We don't have any cached credentials, or they are expired, get them try: result = get_metadata("meta-data/iam/security-credentials/") role = result.text except (requests.exceptions.HTTPError, requests.exceptions.ConnectionError): return provider["id"], provider["key"], "" try: result = get_metadata(f"meta-data/iam/security-credentials/{role}") except (requests.exceptions.HTTPError, requests.exceptions.ConnectionError): return provider["id"], provider["key"], "" data = result.json() __AccessKeyId__ = data["AccessKeyId"] __SecretAccessKey__ = data["SecretAccessKey"] __Token__ = data["Token"] __Expiration__ = data["Expiration"] ret_credentials = __AccessKeyId__, __SecretAccessKey__, __Token__ else: ret_credentials = provider["id"], provider["key"], "" if provider.get("role_arn") is not None: provider_shadow = provider.copy() provider_shadow.pop("role_arn", None) log.info("Assuming the role: %s", provider.get("role_arn")) ret_credentials = assumed_creds( provider_shadow, role_arn=provider.get("role_arn"), location="us-east-1" ) return ret_credentials def sig2(method, endpoint, params, provider, aws_api_version): """ Sign a query against AWS services using Signature Version 2 Signing Process. This is documented at: http://docs.aws.amazon.com/general/latest/gr/signature-version-2.html """ timenow = datetime.utcnow() timestamp = timenow.strftime("%Y-%m-%dT%H:%M:%SZ") # Retrieve access credentials from meta-data, or use provided access_key_id, secret_access_key, token = creds(provider) params_with_headers = params.copy() params_with_headers["AWSAccessKeyId"] = access_key_id params_with_headers["SignatureVersion"] = "2" params_with_headers["SignatureMethod"] = "HmacSHA256" params_with_headers["Timestamp"] = f"{timestamp}" params_with_headers["Version"] = aws_api_version keys = sorted(params_with_headers.keys()) values = list(list(map(params_with_headers.get, keys))) querystring = urllib.parse.urlencode(list(zip(keys, values))) canonical = "{}\n{}\n/\n{}".format( method.encode("utf-8"), endpoint.encode("utf-8"), querystring.encode("utf-8"), ) hashed = hmac.new(secret_access_key, canonical, hashlib.sha256) sig = binascii.b2a_base64(hashed.digest()) params_with_headers["Signature"] = sig.strip() # Add in security token if we have one if token != "": params_with_headers["SecurityToken"] = token return params_with_headers def assumed_creds(prov_dict, role_arn, location=None): valid_session_name_re = re.compile("[^a-z0-9A-Z+=,.@-]") # current time in epoch seconds now = time.mktime(datetime.utcnow().timetuple()) for key, creds in copy.deepcopy(__AssumeCache__).items(): if (creds["Expiration"] - now) <= 120: del __AssumeCache__[key] if role_arn in __AssumeCache__: c = __AssumeCache__[role_arn] return c["AccessKeyId"], c["SecretAccessKey"], c["SessionToken"] version = "2011-06-15" session_name = valid_session_name_re.sub( "", salt.config.get_id({"root_dir": None})[0] )[0:63] headers, requesturl = sig4( "GET", "sts.amazonaws.com", params={ "Version": version, "Action": "AssumeRole", "RoleSessionName": session_name, "RoleArn": role_arn, "Policy": ( '{"Version":"2012-10-17","Statement":[{"Sid":"Stmt1",' ' "Effect":"Allow","Action":"*","Resource":"*"}]}' ), "DurationSeconds": "3600", }, aws_api_version=version, data="", uri="/", prov_dict=prov_dict, product="sts", location=location, requesturl="https://sts.amazonaws.com/", ) headers["Accept"] = "application/json" result = requests.request( "GET", requesturl, headers=headers, data="", verify=True, timeout=AWS_METADATA_TIMEOUT, ) if result.status_code >= 400: log.info("AssumeRole response: %s", result.content) result.raise_for_status() resp = result.json() data = resp["AssumeRoleResponse"]["AssumeRoleResult"]["Credentials"] __AssumeCache__[role_arn] = data return data["AccessKeyId"], data["SecretAccessKey"], data["SessionToken"] def sig4( method, endpoint, params, prov_dict, aws_api_version=DEFAULT_AWS_API_VERSION, location=None, product="ec2", uri="/", requesturl=None, data="", headers=None, role_arn=None, payload_hash=None, ): """ Sign a query against AWS services using Signature Version 4 Signing Process. This is documented at: http://docs.aws.amazon.com/general/latest/gr/sigv4_signing.html http://docs.aws.amazon.com/general/latest/gr/sigv4-signed-request-examples.html http://docs.aws.amazon.com/general/latest/gr/sigv4-create-canonical-request.html """ timenow = datetime.utcnow() # Retrieve access credentials from meta-data, or use provided if role_arn is None: access_key_id, secret_access_key, token = creds(prov_dict) else: access_key_id, secret_access_key, token = assumed_creds( prov_dict, role_arn, location=location ) if location is None: location = get_region_from_metadata() if location is None: location = DEFAULT_LOCATION params_with_headers = params.copy() if product not in ("s3", "ssm"): params_with_headers["Version"] = aws_api_version keys = sorted(params_with_headers.keys()) values = list(map(params_with_headers.get, keys)) querystring = urllib.parse.urlencode(list(zip(keys, values))).replace("+", "%20") amzdate = timenow.strftime("%Y%m%dT%H%M%SZ") datestamp = timenow.strftime("%Y%m%d") new_headers = {} if isinstance(headers, dict): new_headers = headers.copy() # Create payload hash (hash of the request body content). For GET # requests, the payload is an empty string (''). if not payload_hash: payload_hash = salt.utils.hashutils.sha256_digest(data) new_headers["X-Amz-date"] = amzdate new_headers["host"] = endpoint new_headers["x-amz-content-sha256"] = payload_hash a_canonical_headers = [] a_signed_headers = [] if token != "": new_headers["X-Amz-security-token"] = token for header in sorted(new_headers.keys(), key=str.lower): lower_header = header.lower() a_canonical_headers.append(f"{lower_header}:{new_headers[header].strip()}") a_signed_headers.append(lower_header) canonical_headers = "\n".join(a_canonical_headers) + "\n" signed_headers = ";".join(a_signed_headers) algorithm = "AWS4-HMAC-SHA256" # Combine elements to create create canonical request canonical_request = "\n".join( (method, uri, querystring, canonical_headers, signed_headers, payload_hash) ) # Create the string to sign credential_scope = "/".join((datestamp, location, product, "aws4_request")) string_to_sign = "\n".join( ( algorithm, amzdate, credential_scope, salt.utils.hashutils.sha256_digest(canonical_request), ) ) # Create the signing key using the function defined above. signing_key = _sig_key(secret_access_key, datestamp, location, product) # Sign the string_to_sign using the signing_key signature = hmac.new( signing_key, string_to_sign.encode("utf-8"), hashlib.sha256 ).hexdigest() # Add signing information to the request authorization_header = "{} Credential={}/{}, SignedHeaders={}, Signature={}".format( algorithm, access_key_id, credential_scope, signed_headers, signature, ) new_headers["Authorization"] = authorization_header requesturl = f"{requesturl}?{querystring}" return new_headers, requesturl def _sign(key, msg): """ Key derivation functions. See: http://docs.aws.amazon.com/general/latest/gr/signature-v4-examples.html#signature-v4-examples-python """ return hmac.new(key, msg.encode("utf-8"), hashlib.sha256).digest() def _sig_key(key, date_stamp, regionName, serviceName): """ Get a signature key. See: http://docs.aws.amazon.com/general/latest/gr/signature-v4-examples.html#signature-v4-examples-python """ kDate = _sign(("AWS4" + key).encode("utf-8"), date_stamp) if regionName: kRegion = _sign(kDate, regionName) kService = _sign(kRegion, serviceName) else: kService = _sign(kDate, serviceName) kSigning = _sign(kService, "aws4_request") return kSigning def query( params=None, setname=None, requesturl=None, location=None, return_url=False, return_root=False, opts=None, provider=None, endpoint=None, product="ec2", sigver="2", ): """ Perform a query against AWS services using Signature Version 2 Signing Process. This is documented at: http://docs.aws.amazon.com/general/latest/gr/signature-version-2.html Regions and endpoints are documented at: http://docs.aws.amazon.com/general/latest/gr/rande.html Default ``product`` is ``ec2``. Valid ``product`` names are: .. code-block:: yaml - autoscaling (Auto Scaling) - cloudformation (CloudFormation) - ec2 (Elastic Compute Cloud) - elasticache (ElastiCache) - elasticbeanstalk (Elastic BeanStalk) - elasticloadbalancing (Elastic Load Balancing) - elasticmapreduce (Elastic MapReduce) - iam (Identity and Access Management) - importexport (Import/Export) - monitoring (CloudWatch) - rds (Relational Database Service) - simpledb (SimpleDB) - sns (Simple Notification Service) - sqs (Simple Queue Service) """ if params is None: params = {} if opts is None: opts = {} function = opts.get("function", (None, product)) providers = opts.get("providers", {}) if provider is None: prov_dict = providers.get(function[1], {}).get(product, {}) if prov_dict: driver = list(list(prov_dict.keys()))[0] provider = providers.get(driver, product) else: prov_dict = providers.get(provider, {}).get(product, {}) service_url = prov_dict.get("service_url", "amazonaws.com") if not location: location = get_location(opts, prov_dict) if endpoint is None: if not requesturl: endpoint = prov_dict.get("endpoint", f"{product}.{location}.{service_url}") requesturl = f"https://{endpoint}/" else: endpoint = urllib.parse.urlparse(requesturl).netloc if endpoint == "": endpoint_err = ( "Could not find a valid endpoint in the " "requesturl: {}. Looking for something " "like https://some.aws.endpoint/?args".format(requesturl) ) log.error(endpoint_err) if return_url is True: return {"error": endpoint_err}, requesturl return {"error": endpoint_err} log.debug("Using AWS endpoint: %s", endpoint) method = "GET" aws_api_version = prov_dict.get( "aws_api_version", prov_dict.get(f"{product}_api_version", DEFAULT_AWS_API_VERSION), ) # Fallback to ec2's id & key if none is found, for this component if not prov_dict.get("id", None): prov_dict["id"] = providers.get(provider, {}).get("ec2", {}).get("id", {}) prov_dict["key"] = providers.get(provider, {}).get("ec2", {}).get("key", {}) if sigver == "4": headers, requesturl = sig4( method, endpoint, params, prov_dict, aws_api_version, location, product, requesturl=requesturl, ) params_with_headers = {} else: params_with_headers = sig2(method, endpoint, params, prov_dict, aws_api_version) headers = {} attempts = 0 while attempts < AWS_MAX_RETRIES: log.debug("AWS Request: %s", requesturl) log.trace("AWS Request Parameters: %s", params_with_headers) try: result = requests.get( requesturl, headers=headers, params=params_with_headers, timeout=AWS_METADATA_TIMEOUT, ) log.debug("AWS Response Status Code: %s", result.status_code) log.trace("AWS Response Text: %s", result.text) result.raise_for_status() break except requests.exceptions.HTTPError as exc: root = ET.fromstring(exc.response.content) data = xml.to_dict(root) # check to see if we should retry the query err_code = data.get("Errors", {}).get("Error", {}).get("Code", "") if attempts < AWS_MAX_RETRIES and err_code and err_code in AWS_RETRY_CODES: attempts += 1 log.error( "AWS Response Status Code and Error: [%s %s] %s; " "Attempts remaining: %s", exc.response.status_code, exc, data, attempts, ) sleep_exponential_backoff(attempts) continue log.error( "AWS Response Status Code and Error: [%s %s] %s", exc.response.status_code, exc, data, ) if return_url is True: return {"error": data}, requesturl return {"error": data} else: log.error( "AWS Response Status Code and Error: [%s %s] %s", exc.response.status_code, exc, data, ) if return_url is True: return {"error": data}, requesturl return {"error": data} root = ET.fromstring(result.text) items = root[1] if return_root is True: items = root if setname: for idx, item in enumerate(root): comps = item.tag.split("}") if comps[1] == setname: items = root[idx] ret = [] for item in items: ret.append(xml.to_dict(item)) if return_url is True: return ret, requesturl return ret def get_region_from_metadata(): """ Try to get region from instance identity document and cache it .. versionadded:: 2015.5.6 """ global __Location__ if __Location__ == "do-not-get-from-metadata": log.debug( "Previously failed to get AWS region from metadata. Not trying again." ) return None # Cached region if __Location__ != "": return __Location__ try: result = get_metadata("dynamic/instance-identity/document") except requests.exceptions.RequestException: log.warning("Failed to get AWS region from instance metadata.", exc_info=True) # Do not try again __Location__ = "do-not-get-from-metadata" return None try: region = result.json()["region"] __Location__ = region return __Location__ except (ValueError, KeyError): log.warning("Failed to decode JSON from instance metadata.") return None return None def get_location(opts=None, provider=None): """ Return the region to use, in this order: opts['location'] provider['location'] get_region_from_metadata() DEFAULT_LOCATION """ if opts is None: opts = {} ret = opts.get("location") if ret is None and provider is not None: ret = provider.get("location") if ret is None: ret = get_region_from_metadata() if ret is None: ret = DEFAULT_LOCATION return ret
webs 1.0 - Enhanced UI